Patent application number | Description | Published |
20100041248 | MULTI-STEP SYSTEM AND METHOD FOR CURING A DIELECTRIC FILM - A multi-step system and method for curing a dielectric film in which the system includes a drying system configured to reduce the amount of contaminants, such as moisture, in the dielectric film. The system further includes a curing system coupled to the drying system, and configured to treat the dielectric film with ultraviolet (UV) radiation and infrared (IR) radiation in order to cure the dielectric film. | 02-18-2010 |
20100065758 | DIELECTRIC MATERIAL TREATMENT SYSTEM AND METHOD OF OPERATING - A system for curing a low dielectric constant (low-k) dielectric film on a substrate is described, wherein the dielectric constant of the low-k dielectric film is less than a value of approximately 4. The system comprises one or more process modules configured for exposing the low-k dielectric film to electromagnetic (EM) radiation, such as infrared (IR) radiation and ultraviolet (UV) radiation. | 03-18-2010 |
20100065759 | DIELECTRIC TREATMENT MODULE USING SCANNING IR RADIATION SOURCE - A system for curing a low dielectric constant (low-k) dielectric film on a substrate is described, wherein the dielectric constant of the low-k dielectric film is less than a value of approximately 4. The system comprises one or more process modules configured for exposing the low-k dielectric film to electromagnetic (EM) radiation, such as infrared (IR) radiation and ultraviolet (UV) radiation. | 03-18-2010 |
20100067886 | IR LASER OPTICS SYSTEM FOR DIELECTRIC TREATMENT MODULE - A system for curing a low dielectric constant (low-k) dielectric film on a substrate is described, wherein the dielectric constant of the low-k dielectric film is less than a value of approximately 4. The system comprises one or more process modules configured for exposing the low-k dielectric film to electromagnetic (EM) radiation, such as infrared (IR) radiation and ultraviolet (UV) radiation. | 03-18-2010 |
20100068897 | DIELECTRIC TREATMENT PLATFORM FOR DIELECTRIC FILM DEPOSITION AND CURING - A system for curing a low dielectric constant (low-k) dielectric film on a substrate is described, wherein the dielectric constant of the low-k dielectric film is less than a value of approximately 4. The system comprises one or more process modules configured for exposing the low-k dielectric film to electromagnetic (EM) radiation, such as infrared (IR) radiation and ultraviolet (UV) radiation. | 03-18-2010 |
20100247803 | Chemical vapor deposition method - A chemical vapor deposition (CVD) method for depositing a thin film on a surface of a substrate is described. The CVD method comprises disposing a substrate on a substrate holder in a process chamber, and introducing a process gas to the process chamber, wherein the process gas comprises a chemical precursor. The process gas is exposed to a non-ionizing heat source separate from the substrate holder to cause decomposition of the chemical precursor. A thin film is deposited upon the substrate. | 09-30-2010 |
20100248443 | Method of integrating an air gap structure with a substrate - A method for forming an air gap structure on a substrate is described. The method comprises depositing a sacrificial layer on a substrate, forming an adhesion-promoting layer between the sacrificial layer and the substrate, and depositing a capping layer over the sacrificial layer. The sacrificial layer and the capping layer are patterned and metalized. Thereafter, the sacrificial layer is decomposed and removed through the capping layer. | 09-30-2010 |
20110126762 | VAPOR DEPOSITION SYSTEM - A system for depositing a thin film on a substrate using a vapor deposition process is described. The deposition system includes a process chamber having a vacuum pumping system configured to evacuate the process chamber, a substrate holder coupled to the process chamber and configured to support the substrate, a gas distribution system coupled to the process chamber and configured to introduce a film forming composition to a process space in the vicinity of a surface of the substrate, a non-ionizing heat source separate from the substrate holder that is configured to receive a flow of the film forming composition and to cause thermal fragmentation of one or more constituents of the film forming composition when heated, and one or more power sources coupled to the heating element array and configured to provide an electrical signal to the at least one heating element zone. The deposition system further includes a remote source coupled to the process chamber and configured to supply a reactive composition to the process chamber to chemically interact with the substrate, wherein the remote source comprises a remote plasma generator, a remote radical generator, a remote ozone generator, or a water vapor generator, or a combination of two or more thereof. | 06-02-2011 |
20110303145 | Apparatus for chemical vapor deposition control - A gas heating device and a processing system for use therein are described for depositing a thin film on a substrate using a vapor deposition process. The gas heating device includes a heating element array having a plurality of heating element zones configured to receive a flow of a film forming composition across or through said plurality of heating element zones in order to cause pyrolysis of one or more constituents of the film forming composition when heated. Additionally, the processing system may include a substrate holder configured to support a substrate. The substrate holder may include a backside gas supply system configured to supply a heat transfer gas to a backside of said substrate, wherein the backside gas supply system is configured to independently supply the heat transfer gas to multiple zones at the backside of the substrate. | 12-15-2011 |
20110305831 | Method for chemical vapor deposition control - A method of depositing a thin film on a substrate in a deposition system is described. The method includes disposing a gas heating device comprising a plurality of heating element zones in a deposition system, and independently controlling a temperature of each of the plurality of heating element zones, wherein each of the plurality of heating element zones having one or more resistive heating elements. Additionally, the method includes providing a substrate on a substrate holder in the deposition system, wherein the substrate holder has one or more temperature control zones. The method further includes providing a film forming composition to the gas heating device coupled to the deposition system, pyrolyzing one or more constituents of the film forming composition using the gas heating device, and introducing the film forming composition to the substrate in the deposition system to deposit a thin film on the substrate. | 12-15-2011 |
20120213929 | METHOD OF OPERATING FILAMENT ASSISTED CHEMICAL VAPOR DEPOSITION SYSTEM - A method of performing a filament-assisted chemical vapor deposition process is described. The method includes providing a substrate holder in a process chamber of a chemical vapor deposition system, providing a non-ionizing heat source separate from the substrate holder in the process chamber, disposing a substrate on the substrate holder, introducing a film forming composition to the process chamber, thermally fragmenting the film forming composition using the non-ionizing heat source, and forming a thin film on the substrate in the process chamber. The non-ionizing heat source includes a gas heating device through and/or over which the film forming composition flows. The method further includes remotely producing a reactive composition, and introducing the reactive composition to the process chamber to interact with the substrate, wherein the reactive composition is introduced sequentially and/or simultaneously with the introducing the film forming composition. | 08-23-2012 |
20130217210 | METHOD AND DEVICE FOR CONTROLLING PATTERN AND STRUCTURE FORMATION BY AN ELECTRIC FIELD - A processing method and apparatus uses at least one electric field applicator ( | 08-22-2013 |
20140109432 | MULTI-STEP SYSTEM AND METHOD FOR CURING A DIELECTRIC FILM - A multi-step system and method for curing a dielectric film in which the system includes a drying system configured to reduce the amount of contaminants, such as moisture, in the dielectric film. The system further includes a curing system coupled to the drying system, and configured to treat the dielectric film with ultraviolet (UV) radiation and infrared (IR) radiation in order to cure the dielectric film. | 04-24-2014 |